표제지
목차
Abstract 9
I. 서론 11
II. 이론적 고찰 14
1. 점증제 첨가량에 따른 발포금속의 제조 특성 14
2. 발포 온도와 냉각속도에 따른 제조 특성 변화 15
3. 발포금속의 기계적 특성 16
III. 실험 방법 18
1. 606X계 합금의 발포 분석 18
2. 기공의 조직관찰 23
3. 밀도, 기공율 및 기공크기 측정 23
4. 압축강도, 에너지 흡수량 및 경도 측정 24
IV. 실험결과 및 고찰 25
1. 6061 합금 발포금속의 점증제 첨가량과 온도의 영향 25
2. 6061 합금 발포금속의 발포제 첨가 온도와 냉각속도의 영향 30
3. 6063 합금 발포금속의 발포제 첨가 온도와 냉각속도의 영향 35
4. 발포 기공과 기공벽의 미세조직 및 기공율 측정 40
5. 606X계 합금 발포금속의 압축특성 47
V. 결론 54
참고문헌 56
감사의 글 59
Table 1. Chemical composition of 6061 and 6063 aluminum alloys. 20
Table 2. Compressive behavior of 6061 aluminum alloy metallic foams. 52
Table 3. Compressive behavior of 6063 aluminum alloy metallic foams. 52
Fig. 1. The compressive stress-strain curves for pure aluminum foams. 17
Fig. 2. Schematic diagram of apparatus for making metallic foams: (1) stirrer (2) mixing furnace, (3) holding furnace. 21
Fig. 3. Experimental flow chart for fabrication of metallic foams. 22
Fig. 4. Macrostructure of pure aluminum foams with different calcium content at stirring time for 20 min. (a) 0.5 wt.% Ca, (b) 1.0 wt.% Ca, (c)1.5 wt.% Ca, (d) 2.0 wt.% Ca. 27
Fig. 5. The representative 6061 aluminum alloy metallic foam specimens foamed at 680℃ with addition of (a) 1wt.% Ca, (b) 1.5wt.% Ca and (c) 2wt.% Ca. 28
Fig. 6. The representative 6061 aluminum alloy metallic foam specimens which foamed at (a) 680℃, (b) 730℃ and (c) 780℃. 29
Fig. 7. The representative 6061 aluminum alloy metallic foam specimens foamed at (a) 680℃ and (b) 730℃ with air cooling and (c) 680℃ and (b) 730 ℃ with water cooling. 31
Fig. 8. Macroscopic view of the 6061 aluminum alloy foams which foamed at (a) 680℃ and (b) 730℃ with air cooling and (c) 680℃ and (b) 730℃ with water cooling. 33
Fig. 9. The cell size distribution of 6061 aluminum alloy metallic foam with air and water cooling. 34
Fig. 10. The representative 6063 aluminum alloy metallic foam specimens foamed at (a) 680℃ and (b) 730℃ with air cooling and (c) 680℃ and (d) 730℃ with water cooling. 37
Fig. 11. Macroscopic view of the representative 6063 aluminum alloy metallic foam specimens foamed at (a) 680℃ and (b) 730℃ with air cooling and (c) 680℃ and (d) 730℃ with water cooling 38
Fig. 12. The cell size distribution of 6063 aluminum alloy metallic foam with air and water cooling. 39
Fig. 13. Microstructure of AA6061 metallic foam specimens which foamed at (a) 680℃ and (b) 730℃ with air cooling and (c) 680°C and (d) 730℃ with water cooling. 43
Fig. 14. Microstructure of AA6063 metallic foam specimens which foamed at (a) 680℃ and (b) 730℃ with air cooling and (c) 680℃ and (d) 730℃ with water cooling. 44
Fig. 15. Second electron microscopy of 6061 and 6063 aluminum alloy metallic foams with different cooling conditions; (A) Al 6061, Air cooling, (B) Al 6061. Water cooling (C) Al 6063, Air cooling, (D) Al 6063, Water cooling. 45
Fig. 16. Comparison of morphological features for 6061 and 6063 aluminum alloy metallic foams with different foaming and cooling conditions; (A) 680℃, Air cooling (B) 730℃, Air cooling (C) 680℃, water cooling (D) 730℃, water cooling 46
Fig. 17. The compressive stress-strain curves for the 6061 aluminum alloy metallic foams with different foaming temperature and cooling rate. 50
Fig. 18. The compressive stress-strain curves for the 6063 aluminum alloy metallic foams with different foaming temperature and cooling rate. 51
Fig. 19. Comparison of Vickers hardness of 606X aluminum alloy metallic foams with different foaming and cooling conditions; (A) Al 6061, foamed at 680℃ (B) Al 6061, foamed at 730℃ (C) Al 6063, foamed at 680℃ (D) Al 6063, foamed at 730℃ 53